CSIG菁英青云论坛第8期

主办单位：中国图象图像学学会女科技工作者工作委员会

协办单位：IEEE WIE土耳其分会

导读： 2021年6月25日，INNOSES首席商务官兼联合创始人Simay Akar和南京理工大学王贝贝副教授做客“CSIG菁英青云论坛第8期——AI for Humanity”，为大家带来了“可再生能源人工智能”与“虚拟与现实：复杂外观的逼真渲染” 两场精彩的学术报告，本次活动由中国科学院自动化研究所董晶研究员主持，共有3000余人在线观看并参与探讨。

微信推文：https://mp.weixin.qq.com/s/kzjbGHq6ZyaBiVrw8n3qlQ

回放链接： https://www.kczg.org.cn/meet/detail?id=5654 

报告1：AI for Renewable Energy

Abstract: The global transition to renewable energy will need artificial intelligence (AI) technology to manage decentralized grids. Artificial intelligence is key to clean energy revolution Why AI is a game-changer for renewable energy?

Bio: Simay Akar is an entrepreneur with corporate industrial background and experience in the energy industry. She specialized in photovoltaic manufacturing, battery storage for electric vehicles and other renewable energy technologies and the clean energy markets development. Akar is currently the Chief Commercial Officer & Co-Founder at Innoses. Additional past roles include Sales & Marketing Director of EkoRE – Eko Renewable Energy and Marketing & Business Development Director of GoodWe Turkey, Head of Overseas Marketing at Talesun Solar. Akar has worked in China and Turkey and mostly focused on international commercial activities and has been employed by CSUN Eurasia, Schneider Electric, Arcelik (BEKO), and Lucida Solar. In addition to her professional acclimates, she is an IEEE Senior Member, acknowledged volunteer since 2007 and recipient of several prestigious awards. Simay is a graduate of Middle East Technical University, Ankara, Turkey and participated in the Energy Innovation and Emerging Technologies Program at Stanford University.

Webpage：https://www.simayakar.com/

报告2：Talk Title：Virtual or Real:  Photorealistic Rendering of the  Complex Appearance

Abstract: Photorealistic rendering becomes more and more important for movie production and game development. Rendering glinty details from specular microstructure enhances the level of realism, but previous methods require heavy storage for the high-resolution height field or normal map and associated acceleration structures. In our work, we aim at dynamically generating theoretically infinite microstructure, preventing obvious tiling artifacts, while achieving constant storage cost. Specular light transport simulation is a challenging problem. We present path cuts to efficiently render such light paths.

Bio: Beibei Wang, Associate Professor, associate professor at Nanjing University of Science and Technology.  She received the Bachelor and PhD degree from Shandong University, in 2009 and 2014. She visited Telecom ParisTech from 2012 to 2014. She worked as a postdoc with Inria from 2015 to 2017. She joined NJUST in March 2017. Her research interests include rendering and game development.

Webpage：https://wangningbei.github.io/